Title
Difference map and its electronic circuit realization
11627/475411627/4754
Author
García Martínez, Moises
Campos Cantón, Isaac
Campos Cantón, Eric
Celikovsk, Sergej
Abstract
"In this paper we study the dynamical behavior of the one-dimensional discrete-time system, the so-called iterated map. Namely, a bimodal quadratic map is introduced which is obtained as an amplification of the difference between well-known logistic and tent maps. Thus, it is denoted as the so-called difference map. The difference map exhibits a variety of behaviors according to the selection of the bifurcation parameter. The corresponding bifurcations are studied by numerical simulations and experimentally. The stability of the difference map is studied by means of Lyapunov exponent and is proved to be chaotic according to Devaney’s definition of chaos. Later on, a design of the electronic implementation of the difference map is presented. The difference map electronic circuit is built using operational amplifiers, resistors and an analog multiplier. It turns out that this electronic circuit presents fixed points, periodicity, chaos and intermittency that match with high accuracy to the corresponding values predicted theoretically."
Publication date
2013Publication type
articleDOI
https://doi.org/10.1007/s11071-013-1007-4Knowledge area
MATEMÁTICASEditor
SpringerKeywords
Chaotic behaviorLyapunov exponent
Bifurcation parameter
Bifurcation diagram
Stability analysis